邵建达教授工作室

作者:王李金 时间:2021-05-25 点击数:

首席教授:邵建达教授

团队成员:朱美萍、邵宇川、杨陈楹

联系人:杨陈楹                                     联系方式:15906620149,ycheny@ucas.ac.cn


邵建达教授工作室成立于2019年,主要开展光学薄膜、光电材料与器件的研究,致力于攻克相关科学技术难题,使之成果化、应用化、生产化。工作室具体研究方向包括高性能激光薄膜制备技术、激光与薄膜相互作用研究、新型半导体光电材料的设计、合成与表征、新型光电器件的制备与机理研究、柔性电子器件、可穿戴设备的研发、微纳结构/光学薄膜的光子元件及仪器研究。目前工作室所在的杭高院光电材料与器件研究中心拥有紫外光刻压印一体机、磁控溅射镀膜仪、蒸镀仪、手套箱、光学平台、通风橱、旋涂仪等仪器设备,可供完成光学实验、光学测试,以及制备太阳能电池和LED等光电器件。同时依托于中国科学院上海光学精密机械研究所“薄膜光学实验室”,工作室更是拥有双光路分光光度计、薄膜电参数测量仪、光学显微镜、原子层沉积系统、光学元件损伤阈值测试平台、大口径光学元件激光预处理平台、光学表面微弱吸收测量装置、光学元件的高精度透/反射率测量装置、外部量子效率量测系统等,可制备和表征激光薄膜、制备和测试光学原件以及半导体光电器件等。相关科研成果已发表于ScienceNature EnergyNature MaterialsNature CommunicationsAdvanced Optical MaterialsACS PhotonicsApplied Physics Letters等期刊,共计学术论文20余篇。目前邵建达教授工作室有15人,包括首席教授1人,正研究员2人,副研究院1人,博士后2人,博士研究生1人,硕士研究生8人。邵建达工作室学术氛围浓厚,做事严谨认真,培养有思想、有能力、做实事、搞创新的青年人才,同时工作室讲求劳逸结合,常组织聚餐、郊游、踏青、运动等户内户外活动,增进团队感情,培养团队默契,促进成员更好地交流合作。


Prof. Shao Jianda's group was established in 2019. It is mainly engaged in the research of optical thin films, photoelectric materials and devices, and is committed to solving relevant scientific and technological problems and making them fruitful, applied and productive. Specific research orientation of our group include high-performance laser film preparation technology; the interaction between laser and thin film research; design, synthesis and characterization of new semiconductor optoelectronic materials; preparation and mechanism research of new photoelectric device; flexible electronics, wearable equipment research and development; research of photonic components and instruments with micro-nano structure/optical thin film. At present, our group, which is located in Photoelectric Materials and Devices Research Center of HIAS, has ultraviolet lithography machine, magnetron sputtering coating instrument, evaporation instrument, glove box, optical platform, ventilation cabinet, rotary coater and other instruments and equipment. These can be used to complete optical experiments, optical testing, as well as the preparation of solar cells and LED photoelectric devices. At the same time, relying on "Thin Film Optics Laboratory" of Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, our group has double light path spectrophotometer, thin film electric parameter measuring instrument, optical microscope, atomic layer deposition system, optical element damage threshold test platform, large aperture optical element laser pretreatment platform, optical surface weak absorption measurement device, the high precision optical element is/reflectivity measurement device, the external quantum efficiency measurement system, etc. It can prepare and characterize laser films, prepare and test optical components and semiconductor optoelectronic devices, etc. Related research results have been published in Science, Nature Energy, Nature Materials, Nature Communications, Advanced Optical Materials, ACS Photonics, Applied Physics Letters and other journals, which are more than 20 academic papers. At present, there are 15 people working in professor Shao Jianda's group, including 1 chief professor, 2 full researchers, 1 associate researcher, 2 post-doctors, 1 doctoral candidate and 8 master candidates. Our group has dense academic atmosphere and has a rigorous and serious attitude to work, to cultivate thoughtful, capable, practical, innovative young talents. At the same time, we emphasize the combination of work and rest, and often organize meals, outing, sports and other indoor and outdoor activities to enhance team feelings, cultivate tacit understanding of the team, and promote better communication and cooperation among members.


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1. 沉积和退火后的混合涂层HfO2-Al2O3(a)透射光谱(b)折射率(c)光学带隙[1]


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2. 绝缘添加剂优化钙钛矿太阳能电池的光电性能[2]


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3. 有机卤化物盐通过抑制钙钛矿MAPbBr3的离子迁移以增强发光强度[3]


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4. 通过使用可调谐的纳米层作为有效层提出了一种“反射率和激光电阻合二为一”的设计[4]


引用文献:

[1]SHI J, ZHU M, DU W, et al. Effect of annealing on the properties of HfO2-Al2O3 mixture coatings for picosecond laser applications[J]. Applied Surface Science, 2022, 579: 152192.

[2]ZHANG G, ZHENG Y, SHI Y, et al. Improving the Performance of Perovskite Solar Cells with Insulating Additive-Modified Hole Transport Layers[J]. ACS Applied Materials & Interfaces, 2022, 14(9): 11500-11508.

[3]CHEN L, WANG H, ZHANG W, et al. Surface Passivation of MAPbBr3 Perovskite Single Crystals to Suppress Ion Migration and Enhance Photoelectronic Performance[J]. ACS Applied Materials & Interfaces, 2022, 14(8): 10917-10926.

[4]ZHU M, XU N, ROSHANZADEH B, et al. Nanolaminate-based design for UV laser mirror coatings[J]. Light: Science & Applications, 2020, 9(1): 20.


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